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When identifying things (such as host names) in the internet, it is often necessary to
compare such identifications for ``equality''. Exactly how this comparison is executed may
depend on the application domain, e.g. whether it should be case-insensitive or not. It may be
also necessary to restrict the possible identifications, to allow only identifications
consisting of ``printable'' characters.
RFC 3454
defines a procedure for ``preparing'' Unicode strings in internet protocols. Before passing
strings onto the wire, they are processed with the preparation procedure, after which they
have a certain normalized form. The RFC defines a set of tables, which can be combined into
profiles. Each profile must define which tables it uses, and what other optional parts of the stringprep
procedure are part of the profile. One example of a stringprep profile is nameprep,
which is used for internationalized domain names.
The module stringprep only exposes the tables from RFC 3454. As
these tables would be very large to represent them as dictionaries or lists, the module uses
the Unicode character database internally. The module source code itself was generated using
the mkstringprep.py utility.
As a result, these tables are exposed as functions, not as data structures. There are two
kinds of tables in the RFC: sets and mappings. For a set, stringprep
provides the ``characteristic function'', i.e. a function that returns true if the parameter
is part of the set. For mappings, it provides the mapping function: given the key, it returns
the associated value. Below is a list of all functions available in the module.
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- Determine whether code is in tableA.1 (Unassigned code points in Unicode
3.2).
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- Determine whether code is in tableB.1 (Commonly mapped to nothing).
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- Return the mapped value for code according to tableB.2 (Mapping for
case-folding used with NFKC).
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- Return the mapped value for code according to tableB.3 (Mapping for
case-folding used with no normalization).
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- Determine whether code is in tableC.1.1 (ASCII space characters).
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- Determine whether code is in tableC.1.2 (Non-ASCII space characters).
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- Determine whether code is in tableC.1 (Space characters, union of C.1.1 and
C.1.2).
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- Determine whether code is in tableC.2.1 (ASCII control characters).
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- Determine whether code is in tableC.2.2 (Non-ASCII control characters).
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- Determine whether code is in tableC.2 (Control characters, union of C.2.1 and
C.2.2).
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- Determine whether code is in tableC.3 (Private use).
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- Determine whether code is in tableC.4 (Non-character code points).
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- Determine whether code is in tableC.5 (Surrogate codes).
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- Determine whether code is in tableC.6 (Inappropriate for plain text).
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- Determine whether code is in tableC.7 (Inappropriate for canonical
representation).
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- Determine whether code is in tableC.8 (Change display properties or are
deprecated).
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- Determine whether code is in tableC.9 (Tagging characters).
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- Determine whether code is in tableD.1 (Characters with bidirectional property
``R'' or ``AL'').
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- Determine whether code is in tableD.2 (Characters with bidirectional property
``L'').
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